AT500527B1 - NOZZLE UNIT FOR CUTTING BY LIQUID - Google Patents

Description

2 AT 500 527 B1

The present invention relates to a nozzle unit in a paper machine or finishing machine for paper. The nozzle unit is arranged to cut the paper web in conjunction with a reel change when the change occurs substantially at the normal machine speed, such as in so-called Pope-type winders and rewinders derived from Pope-type winders. The nozzle unit according to the invention can also be grooved in two-roll winder and in connection with threading in all rewinder types.

The publication EP 0543788 discloses a water jet cutting device in which a pressure of 400 to 600 bar is used. Figure 1 in the publication shows a support structure in which the nozzles are arranged to move in the transverse direction of the web. The nozzles are connected to a control and adjustment unit, which may also include a water container.

Patent US 4,695,004 discloses a water jet cutting apparatus in which the cutting nozzles are connected to a stationary high pressure pump by means of a flexible hose.

Fl Fl 99 283 and corresponding US Pat. No. 5,842,664 disclose a method for cutting a wedge-shaped end of a sheet-like material during threading into a winding device such as a slitter.

The document CA 2 031 802 discloses an apparatus for cutting a moving web of thin material which includes a fluid pressure booster and a nozzle unit mounted on a movable carriage. The motor and the pump are not part of the carriage, but firmly mounted. The pressure intensifier is a rotary hydraulic intensifier similar to that disclosed in US Pat. No. 3,877,334.

U.S. Patent 3,877,334 discloses a method and apparatus for cutting sheet material with a fluid jet. The apparatus includes a pressure intensifier having small and large piston surfaces and containing a fluid reservoir for a cutting fluid. A pressurized fluid, which is passed through a cylindrical conduit, feeds the cutting fluid.

Document Fl 88 417 discloses an apparatus for cutting a pull-in strip of a paper web by means of a nozzle. There is no movable high pressure pump on the cutter.

In a paper machine, the change of the reel spool must be carried out successfully at the same time when the web is operated at a speed which is at least 1500 m / min. The change refers to the time at which the paper web fed on a nearly full paper reel is changed to be wound around a new, empty reel spool. Since the change takes place at high speeds, essentially at the normal running speed, this places high demands on the cut of the paper web in connection with the change of the reel spool. The paper web must be cut quickly, since the length of the waste paper produced during cutting is determined by the ratio of the running speed and the cutting speed. When the paper web is cut while the web is running at the running speed and the cutting part is moved in the transverse direction of the paper web, a wedge is produced at the cutting which wedge should make an angle of not greater than 45 ° with the transverse direction of the paper web, otherwise an excessive amount of waste paper is produced and the new paper roll begins to bend during winding such that a clear protrusion occurs in the paper roll wound on the roll core. It must be possible to accelerate the cutter quickly. 3 AT 500 527 B1 Usually cutting is carried out by means of a liquid, typically water jet cutting, at a pressure of 300 to 1000 bar. Problems are caused by the solid structures needed by the high pressure cutting, which are difficult to move. Movement is difficult because the high pressure hoses are stiff and need a large 5 bending radii. If lighter structures are used there is a risk that the connectors may leak and the hoses burst. In waterjet cutting, problems can also be caused by the erosion effects of water, with both the nozzle and the pressure pump rapidly wearing off. In the nozzle unit according to the invention, the aforementioned problems have been reduced. The device according to the invention is characterized in that the movable nozzle unit comprises a high-pressure pump.

The advantage of the device according to the invention is that it is possible to use a low-pressure liquid all the way to the nozzle unit, whereby the durability of hoses as well as the connections can be controlled more easily. The nozzle unit can also be moved quickly in the cross-machine direction.

The nozzle unit according to the invention comprises a nozzle which can withstand high pressure and a high-pressure pump which supplies cutting fluid under high pressure to the nozzle. The nozzle and the high-pressure pump are advantageously arranged close to each other, in such a way that the high-pressure feed lines for the cutting fluid are as short as possible.

The high pressure pump produces a positive pressure of over 1000 bar compared to normal atmospheric pressure, typically a positive pressure of over 1500 bar. The high pressure pump may be, for example, a radial drum cylinder piston pump.

The hole in the nozzle has such a shape that the water sprayed therefrom is directed toward a surface which is cut in a relatively punctiform manner. Thus, the inner side of the nozzle may be formed, for example, in a funnel-shaped shape, whereby the nozzle has a cylindrical and a conical portion in the incoming direction of the liquid, followed by a cylinder leading to the hole in the nozzle, which cylinder narrow and relatively long compared to the previous ranges. The cutting fluid may be delivered from a container by means of a low pressure pump or, for example, the fluid may be taken directly from a water distribution system. Before the high pressure pump may be necessary accessories, such as a low pressure pump, a filter unit for liquid or a valve that shuts off the supply of liquid. The filter of the filter unit and the accessories thereof may be arranged either in a moving part or in a stationary part, but advantageously in a stationary part. For example, between the high pressure pump and the nozzle may be a pressure sensor and a pressure adjusting valve. The high-pressure pump is controlled by the control unit in a synchronized manner with respect to the other functions of the paper machines, so that the start and the finish of the spraying of liquid meet the 45 cutting requirements. For the cutting fluid, it is possible to use a liquid suitable for cutting, such as water, paraffin oil, or an emulsion prepared therefrom, whereby the necessary lubrication for the nozzle is achieved. 50

In the following the invention will be described by means of drawings in which

Figure 1 shows a part of a solution for the device according to the invention in one

FIG. 2 is a plan view showing different embodiments of the device according to the invention

Claims (6)

4 and show the cut end of the web when cut by means of the device according to the invention, from above (fig. A) and from the side (fig. B). FIG. 1 shows a solution for the device according to the invention. The nozzle unit 2 runs by means of rollers or the like at the periphery of an endless guide line 1, which has the shape of a rectangle with rounded corners. The guide line 1 can have two parts in such a way that the guides which guide the nozzle unit 2 are positioned both above and below the nozzle unit 2 (shown in FIGS. 2b to 4b). FIG. 1 shows only the guide line below the nozzle unit 2. The nozzle unit 2 comprises a nozzle 3 and a high-pressure pump 4 integrated in the nozzle unit 2. The cutting fluid is directed to the high-pressure pump 4 via a hose 5. The other end of the hose is connected to a source the cutting medium connected, such as a water distribution system or a liquid container. The cutting fluid in the hose 5 is in a low-pressure state, however, so that it is possible to supply the necessary amount of fluid to the nozzle 3. Figures 2 to 4 show various embodiments of the device according to the invention, and Figures 5 to 7 show the cut end of the web when the web was cut with the device according to the invention. Figure 2a shows the guide line 1 from above. FIG. 2b shows the same guide line 1 in a side view. The guide line 1 comprises guides above and below the nozzle unit 2, and the nozzle unit 2 moves under the guidance of these guides. In the arrangement 25 according to FIGS. 2a and 2b, the cutting takes place by means of a nozzle unit, whereby one end of the web W shown in FIG. 5 is produced. Figure 5 shows the wedge produced during cutting, wherein the angle α formed by the wedge with the transverse direction of the paper web should advantageously not be greater than 45 °. FIGS. 3a to 4b show embodiments which correspond to FIGS. 2a and 2b in other respects, but which contain different guide lines 1 and nozzle units 2 instead of a guide line 1. The nozzle units 2 are arranged in pairs so that the pairs move along the guide lines 1 in the transverse direction of the web W to each other. The guide lines 1 are positioned vertically in relation to each other at different levels, since it must be possible for the nozzle units 2 to run freely and independently on the guide line 1. By means of the arrangement according to FIGS. 3 a and 3 b, one end of the web W according to FIG. 6 is produced. By means of the arrangement according to FIGS. 4a and 4b, an end of the web W as shown in FIG. 7 is produced. The invention is not limited to the above description but may vary within the scope of the claims. The main aspect in this invention is that the nozzle unit, which is movably arranged, comprises a nozzle and a high-pressure pump, wherein high-pressure pumps do not have to be moved, but the entire nozzle unit moves. Claims 1. A device for cutting a paper web or the like, which device is adapted to cut so that a liquid medium is sprayed by means of a nozzle (3) of a movable nozzle unit (2), characterized in that the movable nozzle unit (2) comprises a high-pressure pump (4). 2. Apparatus according to claim 1, characterized in that the high pressure pump (4) 55 generates a positive pressure of over 1000 bar, advantageously over 1500 bar, compared to 5 AT 500 527 B1 the normal air pressure. 3. Device according to claim 1 or 2, characterized in that the cutting fluid of the nozzle unit (2) is supplied at low pressure. 5 4. The device according to claim 3, characterized in that the cutting fluid is water, paraffin oil or an emulsion prepared from these. 5. A device according to claim 1, characterized in that the nozzle unit (2) is arranged to move on the periphery of a guide line (1) which has the shape of a rectangle with rounded corners. 6. Use of the device according to claims 1 to 5 when cutting a paper web or the like. 15 For 3 sheets of drawings 20 25 30 35 40 45 50 55